[1] Landgrebe J, Dierks T, Schmidt B, et al.The human SUMF1 gene, required for posttranslational sulfatase modification, defines a new gene family which is conserved from pro- to eukaryotes[J]. Gene, 2003, 316:47-56. [2] Dierks T, Dickmanns A, Preusser-Kunze A, et al.Molecular basis for multiple sulfatase deficiency and mechanism for formylglycine generation of the human formylglycine-generating enzyme[J]. Cell, 2005, 121(4):541-552. [3] Gande SL, Mariappan M, Schmidt B, et al.Paralog of the formylglycine-generating enzyme--retention in the endoplasmic reticulum by canonical and noncanonical signals[J]. FEBS J, 2008, 275(6):1118-1130. [4] Mariappan M, Preusser-Kunze A, Balleininger M, et al.Expression, localization, structural, and functional characterization of pFGE, the paralog of the Calpha-formylglycine-generating enzyme[J]. J Biol Chem, 2005, 280(15):15173-15179. [5] Zito E, Fraldi A, Pepe S, et al.Sulphatase activities are regulated by the interaction of sulphatase-modifying factor 1 with SUMF2[J]. EMBO Rep, 2005, 6(7):655-660. [6] Lakso M, Pichel JG, Gorman JR, et al.Efficient in vivo manipulation of mouse genomic sequences at the zygote stage[J]. Proc Natl Acad Sci USA, 1996, 93(12):5860-5865. [7] Liang H, Li Z, Xue L, et al.SUMF2 interacts with interleukin-13 and inhibits interleukin-13 secretion in bronchial smooth muscle cells[J]. J Cell Biochem, 2009, 108(5):1076-1083. [8] Haritunians T, Jones MR, McGovern DP, et al. Variants in ZNF365 isoform D are associated with Crohn’s disease[J]. Gut, 2011, 60(8): 1060-1067. [9] Dong C, Beecham A, Wang L, et al.Genetic loci for blood lipid levels identified by linkage and association analyses in Caribbean Hispanics[J]. J Lipid Res, 2011, 52(7):1411-1419. [10] Sakuma T, Ohnishi K, Fujita K, et al.HpSumf1 is involved in the activation of sulfatases responsible for regulation of skeletogenesis during sea urchin development[J]. Dev Genes Evol, 2011, 221(3):157-166. |